The debate over how one of the most popular osteoarthritis treatments should be federally regulated could change, thanks to a Cornell University study and a new device that provides a better understanding of the science behind hyaluronic acid (HA) injections.
The medical community has been divided over exactly how HA injections provide pain relief to osteoarthritis patients. HA products, typically injected into the knee, replace naturally occurring HA that has been depleted, lubricating the joints and preventing bones from rubbing together.
These injections, used for arthritis treatment for more than 30 years, constitute a $1 billion market in the U.S. The products are currently classified by the U.S. Food and Drug Administration (FDA) as class III medical devices, meaning pain relief is achieved through mechanical actions — mainly the reduction in friction between the bones — as opposed to chemical actions.
But in December 2018, the FDA declared its intention to consider reclassifying HA products as drugs, citing scientific evidence that suggests HA achieves pain relief through chemical actions within the body. If reclassified, new HA products would face a much steeper challenge in reaching the market, affecting treatment options for the 30 million people in the U.S. who have osteoarthritis.
A new study led by Lawrence Bonassar, biomedical engineering and mechanical and aerospace engineering professor, provides new insight on HA’s mode of action. The researchers found the mechanical properties provided by HA’s viscosity, specifically its ability to effectively lubricate cartilage, correlate much more directly to clinical efficacy — i.e., pain relief — than previously thought.
“Researchers have typically used rheometry [the measurement of flow and deformation] to measure how HA reacts to applied forces and to predict its clinical performance, but our study shows it’s a poor predictor,” Bonassar said. “A lot of the disagreement over how HA works is rooted in the fact that, until now, there hasn’t been a better test of how mechanical properties predict performance.”
To test the viscosity of six different HA products, Bonassar’s team engineered a custom tribometer — a device used to measure coefficient of friction — that rubs cartilage back and forth on a glass plate and measures friction and how the products affect it.
“What we found was that each product’s lubricating properties directly correlated with the amount of pain relief reported in patient surveys. This is the first time anyone has been able to show such a clear correlation, and it suggests the debate over how HA works has been somewhat misinformed,” said Bonassar, suggesting that more research should be conducted before a decision is reached on HA treatment regulation.
Bonassar said the study also provides an effective framework from which new HA formulations can be tested, potentially leading to better products and treatment options for those with osteoarthritis.
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